Fibers, originating from nature and mastered by human, have woven their way throughout
the entire history of human civilization. Recent developments in semiconducting polymer …

Bioelectronic interfacing with the human body including electrical stimulation and recording
of neural activities is the basis of the rapidly growing field of neural science and engineering …

Bioelectronics is a hot research topic, yet an important tool, as it facilitates the creation of
advanced medical devices that interact with biological systems to effectively diagnose …

Tethered and battery-powered devices that interface with neural tissues can restrict natural
motions and prevent social interactions in animal models, thereby limiting the utility of these …

Engineered systems that can serve as chronically stable, high-performance electronic
recording and stimulation interfaces to the brain and other parts of the nervous system, with …

Foreign‐body response caused by implanted biomaterials seriously impedes the function of
implants and is a major obstacle to the development of implantable biomaterials and …

Human beings have a greater need to pursue life and manage personal or family health in
the context of the rapid growth of artificial intelligence, big data, the Internet of Things, and …

Invasive brain–machine interfaces can restore motor, sensory and cognitive functions.
However, their clinical adoption has been hindered by the surgical risk of implantation and …

Requirements and recent advances in research on organic neuroelectronics are outlined
herein. Neuroelectronics such as neural interfaces and neuroprosthetics provide a …

Medical robots are invaluable players in non‐pharmaceutical treatment of disabilities.
Particularly, using prosthetic and rehabilitation devices with human–machine interfaces can …